DE102005024113A1 - Airbag module - Google Patents

Abstract

The invention relates to an airbag module having an airbag (12), the wall of which in a first state of the airbag (12) has at least one fold (22) which is formed by abutting opposing sections of the wall, and with a retaining means, the holding the opposite sections together and fixing the fold (22). The holding means can be actively released in response to a signal, whereby the gas bag (12) assumes a second state in which the fold (22) is open.

Description

The The present invention relates to an airbag module with an airbag, the wall in a first state of the gas bag at least one Fold, which is formed by the fact that opposite portions of the Wall abut each other, and with a holding means that the opposite Sections together and the fold fixed.

Usually should in a gas bag module of a vehicle occupant restraint system the gas bag with the gas generated by a gas generator as possible quickly filled become. In certain cases, for example, in a collision with comparatively less Speed or depending of the size, the Weight or the position of a vehicle occupant to be protected, is However, it is desirable a softer gas bag available to deliver. For this purpose, for example outflow openings provided in the module housing be through which a portion of the available gas volume can flow. This solution However, has the disadvantage that space in the module housing for the discharge opening itself as well as a possible opening mechanism must be kept.

A Another, long known option to achieve reduced gas bag internal pressure is to provide a fold in the wall of the non-inflated gas bag, by opposing wall sections abut each other, wherein the fold is fixed by a tear seam becomes. Now, after activating the gas bag module, the gas bag internal pressure increases over one predetermined value, so rips the tear seam on, which increases the volume of the gas bag and the gas bag internal pressure reduced. It is also known to provide a discharge opening in the region of the fold, the first closed by the fold and exposed after tearing the tear seam, whereby a further reduction of the gas bag internal pressure can be achieved.

adversely in this known embodiment is that with her no situation-dependent adaptation the gas bag internal pressure possible is. The tear seam In any case, it will break just when, due to the properties the tear seam firmly specified gas bag internal pressure is reached.

In contrast creates The invention relates to an airbag module that enables a rapid reduction of the airbag internal pressure dependent on from the current accident or Vehicle (occupant) situation allows and yet by a small footprint and a simple Manufacturability.

This is achieved in an airbag module of the type mentioned, characterized that this Holding means on a signal is actively releasable, causing the gas bag assumes a second state in which the fold is open. By the targeted, from the outside controlled solubility the active holding means is thus ensured that regardless of Gas bag internal pressure a reduction of the gas bag internal pressure by transfer of the Gas bags from the first to the second state only takes place if this is really desired is. So can in the case of a collision with high speed or a particularly heavy vehicle occupant a necessary high airbag pressure and thus a tougher Airbag are maintained while in a collision with lesser Speed or in the case of a lighter vehicle occupant softer gas bag available is provided. In addition, the desired reduction in gas bag internal pressure also time decoupled from the course of the gas bag internal pressure, whereby a system results, which is variable in different situations is adjustable.

According to one preferred embodiment comprises the holding means a drive means, which is advantageously a pyrotechnic Drive means acts. this makes possible a particularly rapid unfolding of the fold and a rapid reduction the gas bag internal pressure, if necessary.

Preferably has the holding means on a detonating bolt, which is at a simple and cheap available Mass Article is.

The Holding means can be a clamp have, which fixes the fold in the gas bag wall and if necessary solved becomes.

Advantageous At least one catch element is provided, via which a upon activation separated part of the holding means is connected to the module. Thereby the flying around of loose parts is prevented.

The Holding means preferably engages directly on one of the fold forming sections of the wall. This can be especially around the inside with respect to the first state of the gas bag Wall section act.

Advantageous the holding means is fixed to a rigid bearing part, whereby a particularly secure attachment is guaranteed.

The bearing part is preferably a gas generator carrier of the gas bag module. This offers the advantage that the gas bag module can be formed as a preassembled unit, which can be used in a simple and therefore cost-effective manner completely in the vehicle.

According to one preferred embodiment the unfolded airbag in the second state, a larger volume than in the first Status. Depending on the volume difference between the first and second Condition can already achieve a sufficient reduction of the Gas bag internal pressure can be achieved.

According to one further embodiment the gas bag wall in the region of the fold at least one outflow opening, the advantageous closed in the first state of the gas bag through the fold is and can be released in the second state of the gas bag. This results in an even more extensive and continuous Pressure reduction.

The Gas bag wall can also several in the first state of the gas bag Have wrinkles. This will be a particularly large volume difference and thus a rapid pressure reduction between the first and reaches the second state of the gas bag.

to additional Fixation of the fold it is possible a tear seam provided. This tear stitching takes upon deployment of the gas bag to a part of the tensile force, the Gas bag on the holding means exercises.

Advantageous comprises the holding means a spring. This presses in the first state of the gas bag the fold (s) and thus facilitates, depending on the concrete design, a release the holding agent from the gas bag or a removal of the fold (s) from the holding means.

The Spring is preferably longitudinal a sleeve led, the serves to stabilize the position of the spring. In the case of a pyrotechnic Drive holding means is a further advantage achieved that the Sleeve around the drive is arranged around, whereby this encapsulated as it were is. This is how it is triggered the pyrotechnic propellant a possible impairment of the airbag fabric avoided.

According to one preferred embodiment of Invention, the retaining means on a fastening tape, which the Folding stops in the first state of the gas bag. This fastening tape will be solved if necessary, to transfer the gas bag from the first to the second state.

The Fastening strap can in the first state of the gas bag through an opening in led the fold be. The opening serves simultaneously as a discharge opening in the second state of the gas bag.

Around To achieve a determination of the fold, one end of the fastening tape be connected to the gas bag wall. Alternatively, it is conceivable to attach one end of the fastening strap to a rigid bearing part. The rigid bearing part is z. B. to the generator carrier or an airbag retaining plate. In both cases this is different End of the fastening strap detachable with connected to the bearing part, for example via a detonating bolt. there prevents the limited length of the fastening tape first a release of the fold (s). If the explosive bolt is activated, then one end of the fastening band is released, whereby the Gas bag can spread further, the wrinkles are released and the fastening tape is pulled through the folds.

According to one another embodiment The invention provides that the holding means is a drive means comprises which is integrated in a multi-stage gas generator. Thereby can be dispensed with a separate drive means to solve the wrinkle.

Especially is provided that at ignition a certain stage of the gas generator, the attachment band at least partially destroyed becomes. So it will be after the trigger the gas bag when needed in response to a signal e.g. the second stage ignited the multi-stage gas generator, wherein a portion of the resulting be called Gas is directed to the fastening tape. The tape gets through at least partially melted or burned, giving the fold (s) free in the gas bag.

Further Features and advantages of the invention will become apparent from the following Description of several preferred embodiments with reference to the accompanying drawings. In this shows:

1 a partial section through an airbag module according to a first embodiment of the invention in a first state of the airbag;

2 a section along the line II-II through the gas bag module 1 ;

3 a cut accordingly 2 but in a second state of the gas bag;

4 similar to a cut 2 by an airbag module according to a second embodiment of the invention in the first state of the airbag;

5 a cut accordingly 4 but in the second state of the gas bag;

6 a partial section through an airbag module according to a third embodiment of the invention in the first state of the airbag;

7 similar to a cut 6 by an airbag module according to a fourth embodiment of the invention, also in the first state of the airbag;

8th a partial section through an airbag module according to a fifth embodiment of the invention;

9 a partial section through a gas bag module according to a sixth embodiment of the invention;

10 a partial section through an airbag module according to a seventh embodiment of the invention;

11 a partial section through an airbag module according to an eighth embodiment of the invention;

12 a partial section through an airbag module according to a ninth embodiment of the invention;

13 a partial section through an airbag module according to a tenth embodiment of the invention;

14 a partial section through an airbag module according to an eleventh embodiment of the invention; and

15 a partial section through an airbag module according to a twelfth embodiment of the invention.

1 shows a detail of an airbag module 10 with a gas bag 12 and a gas generator 14 that of a cage 16 is surrounded. Here is a section of the gas bag 12 , the so-called Einblasmund, for the purpose of attachment between the cage 16 and a generator carrier 18 clamped. In the figure, only indicated is a box-shaped cap 20 connected to the generator carrier 18 is connected and in the untripped state of the gas bag module 10 the latter delimits the vehicle interior.

In the in the 1 and 2 shown first state of the gas bag 12 indicates the wall of the gas bag 12 a fold 22 formed by forming opposed portions 25 . 27 the gas bag wall abut each other. The wrinkle 22 is about a holding means in the form of a blasting bolt 24 fixed and at the same time on a rigid bearing part, which in the example shown to the generator support 18 trades, attached. The holding means clamps the sections forming the fold 25 . 27 , To carry out the explosive bolt 24 that from a first, stuck with the generator carrier 18 connected part 26 and a second part separated upon activation 28 there are folds in both 22 forming sections 25 . 27 the gas bag wall openings 30 provided to each other in the first state of the gas bag 12 are opposite.

Furthermore, a catch element in the form of a tether 32 provided that the detachable part 28 of the explosive bolt 24 with the gas bag module 10 connects, with the second end of the tether 32 as well as the gas bag 12 between the cage 16 and the generator carrier 18 is trapped. In addition, the gas bag module 10 a cable 34 on, that's the explosive bolt 24 connects with a control unit, not shown.

Will now the gas bag 12 triggered, he is initially in the in the 1 and 2 shown first state in which the fold 22 through the explosive bolt 24 at the generator carrier 18 is fixed. As a result, not all the possible gas bag volume is available, and the gas bag 12 is quickly inflated, especially the existing in the gas bag openings 30 through the fold 22 (as well as the explosive bolt 24 ) are initially closed.

Should now the internal pressure in the triggered airbag 12 be reduced, a corresponding signal from the control unit via the cable 34 to the explosive bolt 24 transmitted, whereby its pyrotechnic drive means is activated and the explosive bolt 24 in the two parts 26 and 28 Splits. This will be the fold 22 and therefore also the openings 30 released (see 3 ). The part separating during activation 28 of the explosive bolt 24 gets through the tether 32 , in whose place, of course, a wire can be used, on the gas bag module 10 held to prevent the flying loose parts.

When taking this second state, the internal pressure in the gas bag is reduced 12 in comparison to the first state, on the one hand the gas bag volume around the area of the fold 22 is enlarged, and on the other hand, the openings 30 be released, which also serve as outflow. Depending on the size, training and number of wrinkles provided 22 as well as the size of the openings 30 the effect of volume increase or the effect of gas outflow dominant. Of course it is also possible, no Ab flow openings in the region of the fold 22 provide, whereby the gas bag module 10 is reduced to the effect of volume reduction.

The 4 and 5 show a further embodiment of the gas bag module according to the invention, in which the holding means in addition to a blasting bolt 24 additionally via a clamp 36 features. This clamp 36 is on one side over a fixing screw 38 , on the other side over the explosive bolt 24 connected to the generator support and in turn clamps a fold 22 in the wall of the gas bag 12 , Next to a small opening 30 to carry out the explosive bolt 24 is another rectangular discharge opening 40 in the area of the fold 22 intended.

In the first state of the gas bag 12 becomes the fold 22 through the clamp 36 as well as the explosive bolt 24 fixed, causing the discharge opening 40 is closed. After activation of the explosive bolt 24 pivots the clamp 36 around the fixing screw 38 down and gives the fold 22 and thus also the discharge opening 40 free.

Of course, it is again possible to the outflow opening 40 to dispense and to reduce the gas bag internal pressure only by releasing the holding means and unfolding the fold 22 caused increase in volume of the gas bag 12 to use. Other variants are to provide multiple folds or multiple openings within a fold. Also, the shape of the resulting opening may be round or otherwise.

In addition, the arrangement of the explosive bolt 24 and the holding means with respect to the gas bag module 10 be varied in many ways. So can the clamp 36 (and thus the fold 22 ) can also be arranged vertically, as well as an attachment to the module bottom is possible. Also the cap 20 Can be used to attach the holding means. Further, it is possible to set the airbag fold instead of on the inside on the outside of the module, in which case the holding means on the outer wall portion of the airbag immediately attacks.

The 6 to 8th show different possibilities, the explosive bolt 24 at the generator carrier 18 to install. Depending on the arrangement of the explosive bolt 24 you get another by the unfolding gas bag 12 on the explosive bolt 24 applied tensile force F _A (symbolized in the figures by an arrow). As can be seen, the direction of the force F _A in the embodiment according to closes 7 in which the explosive bolt, as well as in 1 , on a side wall of the generator carrier 18 is arranged, an angle of about 115 ° with the direction of a force F _B , which is the pull-out force of the explosive bolt 24 or its second part 28 represents.

6 shows an embodiment of the gas bag module according to the invention 10 in which the explosive bolt 24 at the bottom of the generator carrier 18 is arranged. By this type of arrangement close by the unfolding gas bag 12 applied tensile force F _A and the release force F _B required for releasing the bolt an acute angle of about 45 °. To optimize the through the gas bag 12 on the explosive bolt 24 applied tensile forces is at the upper end of the explosive bolt in the figure 24 a washer 42 arranged. By varying the size of the washer 42 In particular, the point of application of the force F _{A can be} changed. In addition, between the wall sections 25 and 27 a tear seam 44 provided the fold 22 first holds together. This tear seam 44 also serves to optimize the traction by passing through the unfolding gas bag 12 at least partially absorbs generated train. This allows the tensile forces on the explosive bolt 24 minimize.

Further factors for optimizing the gas bag internal pressure reduction by releasing the explosive bolt 24 are next to the arrangement of the explosive bolt 24 , the size of the washer 42 and the provision of a tear seam 44 also the number of folds 22 (With the number of folds, the volume difference between the first and the second state of the gas bag changes) and the size of the openings 30 or the discharge opening 40 , In the embodiment according to 6 has the opening in the figure above 30a a smaller diameter than the lower opening 30b , Of course, the reverse case is also possible. It is also between the clamping of the gas bag 12 on the cage 16 and the location of its fixing on the generator support 18 through the explosive bolt 24 an airbag loose 46 intended.

In a further embodiment ( 8th ) is the explosive bolt 24 so obliquely on the generator support 18 attached that direction to the explosive bolt 24 exerted pull-out force F _B with the direction of the gas bag tensile force F _A substantially coincides. In this way, by the unfolding gas bag 12 at the same time a pull on the explosive bolt 24 exercised, which supports its opening.

As in 9 is shown, the holding means may be a spring 48 have that around the explosive bolt 24 is arranged around. The feather 48 rests on the upper part 28 of the explosive bolt 24 or on a washer and presses the fold 22 in the 9 down, towards the generator carrier 18 out. This allows the spring 48 that the upper half of a predetermined breaking line 49 lying part 28 when activating the explosive bolt 24 largely from the gas bag 12 can be separated unhindered and leave the fold area.

In 10 is a further embodiment of the gas bag module according to the invention 10 shown in the first state of the gas bag, in which, as already mentioned, several folds 22 are provided in the gas bag wall. Again, it extends from a first part 26 and a second part 28 existing explosive bolts 24 through the openings 30 in which the wrinkles 22 forming airbag sections and thus defines the wrinkles 22 relative to the generator carrier 18 firmly. The washer 42 is at the top of the explosive bolt 24 by a mother 50 held, with the tether 32 for the separable part 28 between the mother 50 and the washer 42 is clamped. In its further course is the tether 32 passed through the gas bag wall. To the explosive bolt 24 more precisely an essay 52 around, the upper section of the fixed part 26 is one with the generator carrier 18 connected sleeve 54 intended. In particular, the sleeve 54 by forming the generator carrier 18 educated. The sleeve 54 serves to guide the spring 48 to prevent it from bending. It is also through the sleeve 54 the pyrotechnic propellant containing part of the explosive bolt 24 to the interior of the gas bag module 10 shielded, causing an impairment of the gas bag 12 when triggering the explosive bolt 24 is prevented.

In contrast to the embodiment according to 9 here is the spring 48 between the generator carrier 18 and the wrinkles 22 arranged, so pushes the wrinkles 22 up against the washer 42 , This is useful because next to the part 26 also the whole essay 52 (until just below the washer 42 ) during the activation of the explosive bolt 24 firmly with the generator carrier 18 remains connected. The feather 48 makes it easier to "strip" the wrinkles 22 from the fixed tower 52 ,

The same applies to the in 11 shown embodiment, which of the 10 is very similar. The sleeve 54 However, it is designed as a separate component and extends further into the interior of the airbag module. It is also the sleeve 54 through the openings 30 in the folds 22 guided the gas bag wall. At the top is the sleeve 54 through the washer 42 as well as the mother 50 closed, whereby particularly effective impairment of the airbag fabric in the activation of the explosive bolt 24 is prevented. The explosive bolt 24 So it is through the sleeve 54 and the washer 42 capsuled.

The two in the 12 and 13 embodiments shown differ from those described so far mainly in that the folds 22 of the gas bag 12 not directly through the explosive bolt 24 be set by passing this through the openings 30 in the folds 22 is passed. Instead, through the openings 30 a fastening tape 56 guided, whose first end connected to the gas bag wall, in particular sewn (reference numeral 57 ). The other end of the fastening tape 56 gets through the explosive bolt 24 at the generator carrier 18 set, either on the inside, as in 12 shown, or on the outside of the generator carrier 18 ( 13 ). In the latter case, the fastening tape 56 through an opening 58 in the generator carrier 18 led to the outside. According to 12 is between the mother 50 and the generator carrier 18 a spacer 60 provided by the fastening strap 56 is clamped.

Will now in a case of restraint of the gas bag 12 unfolded, so are the wrinkles 22 due to the limited length of the fastening strap 56 prevented from unfolding and so the openings 30 release. When activating the explosive bolt 24 this is (in both versions) at the level of the fastening tape 56 divided. The upper part ( 12 ), once the lower part ( 13 ) of the explosive bolt 24 separated. Due to the internal airbag pressure, the wrinkles tighten 22 , wherein the now loose second end of the fastening strap 56 through the openings 30 is pulled.

14 shows a further embodiment of the invention, this being in contrast to that of 12 the first end of the fastening tape 56 attached to a rigid bearing part, in particular in a gas bag retaining plate 62 is mounted. The fastening tape 56 is then through the openings as usual 30 in the folds 22 guided and by means of the explosive bolt on the generator carrier 18 established.

15 Finally, shows a last embodiment of the gas bag module according to the invention 10 in which also the wrinkles 22 in the gas bag wall through with the gas bag 12 stitched fastening tape 56 at the generator carrier 18 be determined. In contrast to 12 is the fastening tape 56 however, to the middle of the gas bag module 10 , more precisely in the area of the gas generator 14 guided and runs there between this and the generator carrier 18 , The gas generator 14 is in this embodiment, multi-stage, in particular formed in two stages. To the fastening tape 56 in the case of restraint, release is a bypass in the gas generator 14 formed, which generates at the ignition of the second stage, a mass flow of hot gas, at least partially via a guide device 64 on the fastening tape 56 is steered. This will make the fastening tape 56 Burned or melted, so at least partially destroyed and are so the wrinkles 22 free. In this case, the ignition of the second generator stage is active on a signal. In this embodiment, therefore, the drive means for releasing the fastening strap 56 in the gas generator 14 integrated, which is why it can be dispensed with a separate drive device such as a blasting bolt.

Of course at the discretion of the skilled person, all the features described both individually as well as in combination with each other to use the inventive task to solve.

Claims (24)

Airbag module with an airbag ( 12 ), whose wall in a first state of the gas bag ( 12 ) at least one fold ( 22 ), which is formed by the fact that opposite portions of the wall abut each other, and with a holding means which holds the opposite portions together and the fold ( 22 ), characterized in that the holding means is actively releasable towards a signal, whereby the gas bag ( 12 ) assumes a second state in which the fold ( 22 ) is open. The gas bag module according to claim 1, characterized that this Holding means comprises a drive means. Airbag module according to claim 2, characterized in that that it at the drive means to a pyrotechnic drive means is. The gas bag module according to claim 3, characterized in that the holding means comprises an explosive bolt ( 24 ) having. The gas bag module according to one of the preceding claims, characterized in that the holding means comprises a clamping bracket ( 36 ) having. The gas bag module according to one of the preceding claims, characterized in that at least one catch element is provided, via which a part separated upon activation ( 28 ) of the holding means with the module ( 10 ) connected is. Airbag module according to one of the preceding claims, characterized in that in the second state a lower internal pressure in the unfolded airbag ( 12 ) prevails as in the first state. The gas bag module according to any one of the preceding claims, characterized in that the holding means directly on one of the fold ( 22 ) forming portions of the wall attacks. Airbag module according to one of the preceding claims, characterized characterized in that the retaining means attached to a rigid bearing part. The gas bag module according to claim 9, characterized in that the bearing part is a gas generator carrier ( 18 ) of the gas bag module ( 10 ). Airbag module according to one of the preceding claims, characterized in that the unfolded airbag ( 12 ) has a larger volume in the second state than in the first state. Airbag module according to one of the preceding claims, characterized in that the gas bag wall in the region of the fold ( 22 ) at least one outflow opening ( 30 ; 40 ) having. The gas bag module according to claim 12, characterized in that the outflow opening ( 30 ; 40 ) in the first state of the gas bag ( 12 ) through the fold ( 22 ) is closed. The gas bag module according to claim 12 or claim 13, characterized in that the outflow opening ( 30 ; 40 ) in the second state of the gas bag ( 12 ) is released. The gas bag module according to one of the preceding claims, characterized in that the gas bag wall in the first state of the gas bag ( 12 ) several folds ( 22 ) having. Airbag module according to one of the preceding claims, characterized in that a tear seam ( 44 ) for additional fixation of the fold ( 22 ) is provided. The gas bag module according to one of the preceding claims, characterized in that the holding means is a spring ( 48 ). The gas bag module according to claim 17, characterized in that the spring ( 48 ) along a sleeve ( 54 ) is guided. The gas bag module according to one of the preceding claims, characterized in that the holding means comprise a fastening strap ( 56 ) having the fold ( 22 ) in the first state of the gas bag ( 12 ) holds. The gas bag module according to claim 19, characterized in that the fastening strap ( 56 ) in the first state of the gas bag ( 12 ) through an opening ( 30 ) in the fold ( 22 ) is guided. The gas bag module according to claim 19 or 20, characterized in that one end of the fastening band ( 56 ) is connected to the gas bag wall. The gas bag module according to any one of claims 19 to 21, characterized in that one end of the fastening band ( 56 ) is attached to a rigid bearing part. The gas bag module according to any one of the preceding claims, characterized in that the holding means comprises a drive means, which in a multi-stage gas generator ( 14 ) is integrated. The gas bag module according to any one of claims 19 to 22 and additionally according to claim 23, characterized in that upon ignition of a specific stage of the gas generator ( 14 ) the fastening band ( 56 ) is destroyed at least in sections.